Ampoule filling and sealing machine



P 1954 c. E. UNGER AMPOULE FILLING AND SEALING MACHINE l3 Sheqts-Sheet 1 Filed Aug. 14, 1950 I INVENTOR. CHESTE-D E. UNGED Sept. 21, 1954 c. E. UNGER 2,689,677

AMPOULE FILLING AND SEALING MACHINE Filed Aug. 14, 1950 13 Sheets-Sheet 3 INVENTOR. CA/' TED E. U/VGZD} BY p 21, 1954 c. E. UNGER 2,6 89,677

AMPOULE FILLING AND SEALING MACHINE Filed Aug. 14, 1950 13 Sheets-Sheet 4 INVENTOR. 61/557159 E. (/NGEQ BY Sept. 21, 1954 c. E. UNGER AMPOULE FILLING AND SEALING MACHINE 13 Sheets-Shah: 5

Filed Aug. 14. 1950 INVENTOR. 6055750 5 UMZP BY Sept. 21, 1954 c. E. UNGER AMPOULE FILLING AND SEALING MACHINE l3 Sheets-Sheet 6 Filed Aug. 14, 1950 INVENTOR. Q /5575? E. (/A/GZP BY 13 Sheets-Sheet 7 Filed Aug. 14. 1950 INVENTOR. Cl/[STEP E. U/VGEQ BY Sept. 21, 1954 c. E. UNGER V AMPOULE FILLING AND SEALING MACHINE l3 Sheets-Sheet 8 Filed Aug. 14, 1950 P 21, 1954 c. E. UNGE-R 2,689,677

AMPOULE FILLING AND SEALING MACHINE Filed Aug. 14, 1950 13 Sheets-Sheet 9 Sept. 21, 1954 c. E. UNGER AMPOULE FILLING AND SEALING MACHINE l3 Sheet t 10 Filed 1950 INVEN R. Cl/5747 E. u/vam Sept. 21, 1954 c, UNGER AMPOULE FILLING AND SEALING MACHINE l3 Sheets-Sheet 11 Filed Aug. 14, 1950 INVENTOR. CZ/[fTLQ E. U/VQ Q Sept. 21, 1954 c. E. UNGER 2,689,677

AMPOULE FILLING AND SEALING MACHINE Filed Aug. 14, 1950 13 Sheets-Sheet l2 as 3s a; 3g

I :9 a; l 9 41 a za 42 as I 4 74 I 21 I 7 27 q a! a INVENTOR. Gil F575 E. U/VGE/P BY Sept. 21, 1954 c. E. UNGER AMPOULE FILLING AND SEALING MACHINE l3 Sheets-Sheet 13 Filed Aug. 14, 1950 6 4 n 4 2 m u U 2 )4 H w w mmvrm (#55727? E. U/VG/SQ BY Pie. /6.

Patented Sept. 21, 1954 AMPOULE FILLING AND SEALING MACHINE Chester E. Unger, New Carlisle, Ind., assignor to Eli Lilly and Company,

corporation of Indiana Application August 14, 1950, Serial No. 179,155 Clain1s. (o1.226-75 This invention relates to a machine for filling and sealing ampoules or the like.

It is an object of the invention to provide an ampoule filling and sealing machine which is adapted to fill and seal ampoules in a continuous, rapid mass production manner.

Another object of the invention is to provide a machine of this character which utilizes a simple, straight line or rectilinear mode of operation whereby all of the operations upon the ampoules may be constantly and conveniently under the surveillance of a single operator.

A further object is to provide automatically operable means for preventing operation of certain filling mechanisms of the machine under I conditions Where no ampoule is present to be filled.

A still further object is to provide in a machine of this character a sealing mechanism operable under the control of the particular ampoule being sealed and in accordance with its peculiar wall thickness and strength characteristics.

With these and incidental objects in view, the invention includes certain novel features of construction and combinations of parts, the essential elements of which are set forth in appended claims, and a preferred embodiment of which is hereinafter described with reference :to the drawings which accompany and form part of the specification.

In the drawings:

Figs. 1 to 5, inclusive, are fragmental views illustrating the-several operations of the machine,

Figs. 6 and '7, taken together, constitute a side elevationof the complete machine,

Figs. 8 and 9, taken together, constitutea top plan view thereof,

Fig. 1c is a detailed sectional elevation taken along the line ll3-lil of Fig. .8,

Fig. 11 is a sectional elevation taken along the line H--l I of Fig. 6,

Fig. 12 is a sectional elevation taken along the line l2-|2 of Fig. 7,

Fig. 3 is a sectional elevation taken along the line l3-l3 of Fig. 7,

Fig. 14 is a perspective view of a portion of an ampoule sealing unit shown in Fig. 13 and shows certain of the mechanisms associated therewith,

Fig. 15 is a sectional elevation taken along the line I'5l5 of Fig. 7,

Fig. 1-6 is a sectional elevation taken substantially along the line 15-46 of Fig. 15,

Fig. 17 is a sectional elevation taken along the line l1-l1 of Fig. '7, and

Fig. 18 is a wiring diagram showing the elecbody H,

Indianapolis, Ind., a

trical circuits for the entire machine, the ampoule filling and sealing mechanisms being shown in diagrammatic form.

Index of topics The machine operations generally Ampoule conveyor and indexing mechanism Ampoule filling mechanism Ampoule filling lockout mechanism Ampoule sealing mechanism Electrical circuits.

l. The machine operations generally Referring to Figs. 1-3, there is indicated generally, at H), an ampoule which is representative of the type which may be filled and sealed on the present machine. The ampoule It includes a constricted portion or constriction l2, bulb l3, neck I 4, which latter tapers upwardly and outwardly and merges into a waste or scag end I5.

The ampoules Ill are inserted in suitable receptacles provided on a conveyor indicated generally at It which carries the ampoules first, to a filling station indicated at F in Figs. 2 and 6. Referring to Fig. 2, at filling station F, a pair of aligning grippers I! embrace the neck M of the ampoule to coaxially align its opening with a needle [8 carried by a filling head [9. Filling head [9 is arranged to be lowered as shown in Fig. 2 to lower needle l8 into neck IQ of the ampoule. Needle I8 is connected with a suitable supply source for ejecting a medicament or other liquid into the ampoule in a precision dose quantity. Following the filling operation, head I9 is raised to Withdraw needle l8 lower end lies above the upper end of the ampoule, aligning grippers I! are released from engagement with neck It and conveyor I6 is advanced to index a filled ampoule into sealing position at a sealing station generally indicated at S in Figs. 4 and '7. During the movement of the ampoule toward sealing station S, neck [4 passes through oppositely disposed flames jetting from preheat burners 2!] as shown in Figs. 3 and '7, to preheat the neck preparatory to the ampoule entering scaling station S.

Referring now particularly to Fig. 4, upon the ampoule arriving at sealing position, anchoring grippers 2! close to embrace constriction i2 and anchor the ampoule against upward movement. Pulling tongs 22 are lowered and closed as shown in Fig. i to embrace the scag end it just above neck Hi and oppositely disposed flames from sealing burners 23 project toward and surround the to a position where its neck to plasticize the glass or other material from which the ampoule is made, the flames from the sealin burners, at this time, bein in the same horizontal plane as the flames of preheat burners 20. Tongs 22 pivotally depend from a vertically movable and rotatable sealing head 24 which, as will hereinafter appear, is arranged to be raised by associated weight mechanism as soon as the glass or other material from which the ampoule is made has been rendered sufiiciently plastic by the flames jetting from sealing burners 23 to permit the associated weight mechanism to impart such raising movement. Upon head 24 raising, scag end I is pulled upwardly by tongs 22 as shown in Fig. 5 and the fused end effects a sealing of the neck It of the ampoule as shown in this figure. Substantially, concurrently with the separation of scag end l5, burners 23 are elevated slightly for a short period of time to lift their associated. flames from the position shown in Fig. 4 to the position shown in Fig. 5 where they play upon the sharp, pointed end that is left incident to the separation of scag end l5 from neck I4. This causes the sharp, pointed end to remain molten and flow into a smooth, rounded knob at the tip of neck l4 and thus completes the sealing operation.

Following such sealing operation, grippers 2! release constriction I2 and conveyor l6 concurrently moves the sealed ampoule out of sealing position, a filled ampoule out of filling position, and an unfilled and filled ampoule, respectively, into fillin and sealing positions. The filled ampoule during such movement passes through the flames of preheating burners 20 and comes to rest in alignment with anchoring grippers 2| and a pair of pulling tongs 22a, of a sealing head 24a companion to head 24 and oppositely disposed thereto. Head 24a, at this time, will have been swung from the position shown in Fig. 4 to a position where its pulling tongs 22a, are in alignment with grippers 2|. During the conveyor indexing movement just described, the scag end 15 just removed from a sealed ampoule by tongs 22 is swung by head 24 through an arc of 180 to a position over a suitable waste receptacle such as 25 whereupon tongs 22 open to release the scag end into the receptacle while head 25a and pulling tongs 22a lower and close upon scag end 15 of the ampoule just advanced into sealing position. Following the release of a scag end 15 by sealing head 25, this head with its tongs 22 maintained in openposition, returns to its original position shown in Fig. 4 in alignment with grippers 2| during the next conveyor indexing operation while head 24a and tongs 22a swing through a 180 arc to release the scag end which they have just pulled from an ampoule, and so on. Sealed ampoules are carried by conveyor I 6 from sealing station S to a position where they fall into a suitable collecting container.

Since all of the operations are carried on in a straight line manner, each is openly visible to a single operator seated at the forward end of the machine in position to insert the ampoules in the conveyor. Such straight line mode of operation makes it simple and convenient to add a number of fillin stations F and sealing stations S as suggested in dotted lines in Figs. 6 and 7 adjacent the filling and sealing stations shown in full lines in these figures. In this manner the machines production capacity may be increased or decreased in accordance with prevailing requirements. The filling and sealing operations are as readily carried on simultaneously upon groups of ampoules as upon single ampoules and the rectilinear path of operation facilitates the surveil lance by the operator of the multiple groups of filling and sealingstations and the operations therein performed.

2. Ampomle ccm'ocyor and indexing mechanism Referring to Figs. 6 and 7, conveyor l5 comprises a pair of relatively closely spaced, endless chains 26 extending parallel to one another for the full length of the machine frame 21. At the forward end of the machine (left end as viewed in Fig. 6) chains 26 pass around a pair of sprockets such as 28 fixed to a horizontally disposed shaft 29 journaled at its opposite ends in bearings 32, secured on the upper surface of machine frame 21. At the rear end of the machine (right end as viewed in Fig. 7) chains 25 pass around a pair of relatively larger sprockets 33 (see also Fig. 17) affixed on a horizontally disposed shaft 3d journaled at its opposite ends in bearings 35 secured to machine frame 21. The lower stretch of the chain passes over a pair of suitably spaced idler sprockets 36 affixed to a horizontally disposed shaft 3'! journaled at its opposite ends in bearings 38 provided in a carriage 39 slidably mounted on ways 42 secured to the machine frame. Adjusting screws 53 (see also Fig. 9) threadably mounted in a stationary member 44, and havin a rotative connection with carriage 39, provide means for moving carriage 39 and idler sprockets 3B forwardly or rearwardly of the machine to place the desired degree of tension upon chains 26. At the forward end of the machine (see Figs. 6 and 8) a gear 45 aflixed to shaft 29 meshes with a gear 45 fixed on a horizontally disposed shaft 4? journaled in bearings such as 48 on the mach ne frame. Shaft M is connected with a magnetic brake or the like, indicated at 49, and by this means, the upper stretch of conveyor chains 26 v are maintained taut between sprockets 28 and 35. It will be understood that any suitable brake or drag producing means may be utilized to accomplish this maintenance of proper tension upon the upper stretch of the chains.

Referring to Fig. 10 it will be seen that these upper stretches of chains 26 slidably pass over upwardly extending tracks 52 formed on a bedplate 53, which extends from the forward end of the machine from a point adjacent sprockets 28 to the rear end of the machine to a' point adjacent sprockets 33, tracks 52 serving to guide the chains as they pass thereover. Ampoule receiving blocks or receptacles 54 are mounted tranversely between the chains at uniform spaced points throughout the entire lengths thereof. Centrally of each receptacle 54 is a bore 55 of a diameter such as will receive an ampoule ill with ample clearance for its easy insertion and removal. The upper end of the bore is chamfered or bevelled as at 56, to facilitate the insertion of an ampoule therein as illustrated in Fig. 1. The lower surfaces of receptacles 54 lie a slight distance above the upper surface of an upstanding track 51 formed centrally of integrally and co-extensive in length with, bedplate 53. Track 51 serves as a support for the bottoms of ampoules 10 when the ampoules are inserted within bore 55 as clearly shown in Fig. 1. The means for imparting movement to conveyor 16, and thus indexing receptacles 54, with the ampoules carried therein to filling station F and sealing station S, includes a ratchet wheel 58 (Figs. 7 and 17) aiiixed to shaft 34 adjacent the right hand sprocket 33 as viewed. in Fig. 17. An arm 59 (Fig. 7) loosely brought into sealing position.

mounted on shaft 34, has pivoted at its outer end as at 62, a spring-pulled pawl 63. Arm 59 is pivotally connected by a link 64 to a pair of horizontally disposed levers 65. The forward ends of levers 65 are journaled on a. horizontally disposed shaft 66 suitably mounted on the machine frame. The rearward ends of the levers are connected by a transversely disposed stud 61 secured to one end of a chain 68 passing around an idler gear 69, fixed on a shaft 12 suitably journaled in the machine frame as shown in Fig. 17. The opposite end of chain 68 is connected as at 13 (Fig. 7) to one end of a heavy coil spring 14, the opposite end of which is anchored as at 15 to the machine frame.

A roller 16 rotatably mounted between levers 65 bears against the edge of a cam 11 fixed to a horizontally disposed shaft 18 and is maintained constantly in following contact with said cam edge under the tension of spring 14.

Shaft 18 is journaled for rotation in bearings I9 (Fig. 1'7) fixed to the machine frame. As will be seen in Fig. 17, the left end of shaft 18 passes into gear housing 82 and connects through worm and worm gears (not shown) which are driven in rotation by a shaft 83 connected by belt and pulley connections 84 with an electric motor 85, the latter being the main drive motor of the machine.

Upon operation of motor 85, shaft 18 is continuously driven in rotation and rotates cam 11 clockwise as viewed in Fig. 7. During each revolution of cam 11 it elevates link 64, arm 59, and pawl 63 to a position where the latter engagesa tooth of ratchet wheel 58 as shown in Fig. 7. As cam 11 continues in its rotation, levers 65, link 64, arm 59, and pawl 63 move downwardly under the tension of spring 14 as roller 16 descends by virtue of the configuration of the edge of cam 11. Such downward movement of pawl 63 rotates sprocket 33 a distance sufficient to Bause chains 26 to advance a distance equal to that distance between the centers of the ampoule receptacle blocks This distance of indexing movement is such that an ampoule which has just been filled by needle H8 at filling station F will'be moved out of alignment with said needle and a next adjoining ampoule to the left of said filled ampouie will be brought into alignment withsaid needle. Ccncurrently, a sealed ampoule will be removed from sealing station S (Fig. 7) and a filled ampoule One revolution of cam 11 is sufficient tocause such indexing movement of conveyor I6.

3. Ampoule filling mechanism Substantially concurrently with a receptacle 54 presenting an ampoule ID to filling station F,

i. e., placing the ampoule in general alignment corresponding gripper I1 and pivoted at its opposite end to a common disk 89, connects the grippersfor uniform, joint, arcuate movement about the fulcrum pivots 36. Disk 89 is fixed on to the machine frame.

a stub shaft 92 journaled in bracket 81. A spring 93 connected at one end in past-center relation to disk 89 and at its opposite end to a depending extension of bracket 81 normally urges disk 89 in a counterclockwise direction as viewed in Fig. 11 and, through links 89, urges grippers I1 into closed position as shown in full lines in Fig. 11.

An angularly disposed link 94 pivotally connects disk 89 with one arm of a bell crank 95 pivoted at the end of its opposite arm as at 96 to bracket 81. A plunger 91 of a gripper-control solenoid 93 is pivotally connected to hell crank 95 adjacent its fulcrum pivot 96. Upon energization of solenoid 98, plunger 91 is drawn downwardly and, through the linkage just described, disk 89 is rotated against the tension of spring 93 in a clockwise direction a distance sufficient to move grippers i! into engagement with neck I4 of the ampoule.

Solenoid 98, as will hereinafter be described in detail, is energized immediately following a filling operation, to thus open grippers I1 so that the filled ampoule is free to move with conveyor I6. The solenoid remains energized throughout the indexing movement of the conveyor and becomes de-energized, to permit spring 93 to close grippers I1 on the neck of an ampoule substantially concurrently with the ampoule coming to rest in filling position beneath needle I8.

The mechanism for raising and lowering filling head I9 together with its needle I8 will now be described. The head !9 is supported upon a pair of parallel, vertically disposed rods 39 (Figs. 6 and 11) which are slidably mounted for guided movement in bearings Hi2 affixed to the machine frame. The lower ends of the rods are'connected by a cross strap I03, the center of which rests on the upper surface of an adjusting screw Ill i, threadably secured in a horizontally disposed angle strip I05. Referring to Fig. 6, strip I65 is secured at its opposite ends as at i (:6 to the lower ends of vertically disposed racks I01. Referring to Fig. 11, racks it! are guided for vertical reciprocatory movement between spaced plates I03, there being just sufiicient space between the inner surfaces of the plates to permit sliding movement of the racks. Suitable rolls and pinions such as indicated at I99 in Fig. 11 embrace the opposite edges ofthe racks to maintain them against lateral displacement.

A driving pinion such as H2 (Fig. 11) meshes with the teeth of each rack I91 and is secured on a horizontally disposed shaft I I3 extending through both plates its and pinion H2. A pinion I I4 is secured on the outer end of shaft H3 and meshes with a segmental gear II5 journaled for rotation upon a stub shaft I I 6 stationarily mounted on the machine frame. A link I I1 is secured at one end to segmental gear II5 and, at its opposite end, to a lever H6 pivoted at I19 A spring I 22 connected at one end to lever i i H and anchored at its opposite end to the machine frame constantly urges a roller I23 rotatably mounted on lever HS against the edge of acarn I24 fixed to a horizontally disposed shaft 125, journaled at its opposite ends in bearings I26 secured to the machine frame. .The driven end of shaft I25 (as viewed in Fig. 7) has secured thereon a sprocket I21 (see also Fig. 12) around which passes a chain I28. Chain I28 also passes around a sprocket I29 affixed ona horizontally disposed shaft I32 journaled at itsbpposite ends in bearings I33 fixed on the machine frame. Additionally, chain. I28 passes around a sprocket I34 afiixed to a horizontally disposed shaft I35 suitably journaled for rotation on the machine frame.

The right hand end of shaft I35 as viewed in Figs. '1 and 9, enters into a gear housing I36 located at the rear end of the machine and is connected by gearing (not shown) for rotation by shaft 18 which also enters into and is connected with the gearing of housing I36. Referring to Fig. 12, an idler sprocket I31 supported on an adjustable arm I38 tensions chain I28 about sprockets I21, I29, and I34. From the train of shafting and gearing just described, it is seen that upon shaft 18 being driven in rotation by motor 85 as heretofore described, shaft.

I35 will be driven in rotation in counterclockwise direction as viewed in Fig. 12, and that sprockets I34 and I21 through chain I28 will continuously drive shaft I25 in a counterclockwise direction.

Referring now to Fig. 11, it is seen that cam I24 is rotated by shaft I25 and, by virtue of its engagement with cam roller I23, during each of its revolutions rocks lever H8 first in a counterclockwise direction about pivot H9 and then in a clockwise direction. During the counterclockwise stroke of lever H8, segmental gear H is rocked clockwise by link H1 and this in turn, through gears H4 and H2, imparts a movement to racks I01 an extent sufiicient to raise the racks and angle strip I05 upwardly to a position where rods 99 and head I9 are elevated to sustain the lower end of needle I8 above the upper end of ampoule I0. During the clockwise stroke of lever H8, segmental gear H5 is rotated in a clockwise direction an extent suflicient to lower racks I01 and strip I05 to. the position shown in Fig. 11, wherein rods 99, head I9, and needle I8 are lowered a distance sufiicient to cause the needle to enter within the upper end of the ampoule as shown in Fig. 11.

The timing of the movements just described is such that as soon as grippers I1 have embraced neck I4 of an ampoule, the needle is permitted to descend into the ampoule neck. It remains there for a relatively short period of time, but a period sufiicient to permit the dispensing of medicament of other liquid into the ampoule, whereupon the needle is forthwith elevated to a position clear of the ampoule as just described, the withdrawal of the needle taking place, of course before movement is imparted to conveyor IE to index the filled ampoule from the filling station and the next unfilled ampoule into filling position.

Needle I8 is connected by flexible tubing I38 to a metering pump I39. A supply line I42 connects the pump to a suitable source of medicament or other fiuid with which the ampoules are to be filled. Pump I39 may be of any suitable type for dispensing an accurate, predetermined dose amount of medicament or other liquid. The pump herein illustrated is of the type which is more fully disclosed in U. S. Patent No. 2,148,899, entitled Pipetting Machine and issued to Theodore J. Carski et al. on February 28, 1939. Such a pump includes an electric motor I43, which, upon operating, commences the flow of the liquid and which upon being stopped causes the liquid to cease fiow instantly. In this manner a precise quantity of liquid is conveniently and readily dispensed. The means of controlling the starting and stopping of motor I43 will be hereinafter described in conjunction with the wiring diagram shown in Fig. 18. Suifice it now to say that when needle I8 comes to rest within neck '8 I4 of an ampoule I0, motor I43 is started and maintained running for a predetermined period of time sufficient to dispense the desired amount of liquid, and is then shut off preparatory to needle I8 being withdrawn from ampoule I0.

4. Ampoule filling lockout mechanism Mechanism is provided on this machine to prevent lowering of filling head I9 and its needle I8, and to prevent operation of pump I39 when there is no ampoule present in a receptacle 54 when the latter is indexed into filling position beneath needle I8.

This mechanism includes a lockout arm I44 (Fig. 11) pivoted at its lower end as at I45 to a bracket I48 secured to the machine frame. A link I41 pivotally connects arm I44 to one arm of a bell crank I48 pivoted at I49 to bracket I48. Another arm of hell crank I48 is pivotally connected at I52 to a plunger I53 of a solenoid supported on bracket I46. A spring I55 is connected in past-center relation between lockout arm I44 and a third arm of bell crank I48. As long as solenoid I54 remains de-energized, as shown in Fig. 11, the upper end of lockout arm I44 remains out of the path of movement of cross strap I03. Upon energization of solenoid I54, however, plunger I53 is pulled into the solenoid and this rocks bell crank I48 in a counterclockwise direction as viewed in Fig. 11, a distance sufiicient to place the upper end of lockout arm I44 into the path of movement of cross strap I03.

A three contact electrical switch I58 (Fig. 11) is afiixed to the machine frame in a plane just below the pivot centers of aligning grippers I1.

As will be observed in Fig. 11, the lower end of the left hand gripper I1 has a depending extension I51 that is arranged to engage the control button of the switch. The electrical circuits involved will be more fully described hereinafter in connection with the wiring diagram. Suifice it now to say that upon a receptacle 54 reaching filling position with no ampoule therein, aligning grippers I1 swing furtherinwardly toward each other than they do normally as when an ampoule is present. When the grippers swing inwardly this further distance, extension I51 operates switch I55 and solenoid I54 is thereby energized to move lockout arm I44 beneath cross strap I03. The timing is such that the lookout arm is moved into blocking position, when filling head I9, rods 99, and cross strap I03 are in their uppermost position and before this unit commences its downward stroke. Hence, when angle strip I descends as described in the foregoing, filling head I9 cannot follow, but is maintained in its raised position by lockout arm I44. Upon grippers I1 being released from their closed position, movement of extension I51 permits switch I56 to open and deenergize solenoid I54, whereupon the parts restore to their normal or ineffective positions shown in Fig. 11.

Operation of switch I55 to energize solenoid I54 and actuate lockout arm I44 into lockout position, simultaneously, in a manner which later is more fully explained, opens the electrical circuit of motor I43 and thereby prevents operation of pump I39 and the attendant discharge of liquid during any cycle of the machine wherein the filling head I9 and its needle is withheld from descending into filling position.

5. Ampoule sealing mechanism Upon a filled ampoules reaching sealing position at sealing station s (Figs. '7 and 9), anchoring grippers 2I as shown in Figs. 4 and 13 moveinto closed position and embrace the constricted portion I2 of the ampoule to anchor the latter securely against upward movement. Grippers 2i are similar to aligning grippers I1, except that they are somewhat shorter in length, so that their upper ends lie in the horizontal plane of constriction I 2 instead of in the plane of ampoule neck I4. The mechanism for operating grippers 2I is shown schematically in Fig. 18 and is identical with the link, spring, and disk elements described in connection with the aligning gripper mechanism. The opening and closing mechanism for the anchoring grippers is, however, controlled by a separate solenoid I58 (Fig. 18') similar to solenoid 98 which operates the aligning grippers. Upon an ampoules arriving at sealing position, solenoid I58 is deener ized to permit closing of the anchoring grippers under spring tension upon the constricted portion I2 of the ampoule. Following the removal of the scag end I5 of the ampoule from neck I4, solenoid I58 is energized to move grippers 2! to open position.

Mechanism is provided for raising and lowering heads 24 and 24a to lower their respective tongs 22- 2211. into embracing position with necks I4 of the ampoules, and to raise the tongs to pull the scag ends I5 from the ampoules. Since the head lowering and raising mechanism is identical for each head except for the fact that the mechanisms are arranged on opposite sides of the machine, only one train of mechanism will be herein described, it being understood that both of the mechanisms operate in the same manner, and are coordinated so that only one of the heads will be lowered into ampoule neck engaging position at any given time. Referring to Fig. 7, this raising and lowering mechanism includes a horizontally disposed angle strip I59 secured at its opposite ends as at I 82 to the lower ends of vertically disposed racks I63, thus constituting a lifting and lowering bail.

Referring to Fig. 15, it will be seen that racks I83 are guided for vertical reciprocatory movement between plates I64, with suitable idler rollers and pinions I65 engaging opposite edges of the racks to prevent their lateral displacement. A pinion I66 meshing with rack I63 is fixed to a stub shaft I61 suitably journaled in the rearmost plate I84. The outer, rearmost end of stub shaft I61 has secured thereon a pinion I68 meshing with a segmental gear I69 journaled upon a stub shaft I 12. Ayertically disposed link I13 is pivotally connected at its lower end as at I14 to gear I89 and at its upper end as at I15 to the outer end of a cam lever I16. Lever I16 is pivoted intermediate its ends on a stub shaft I11 journaled in a depending bearing I18 secured to the machine frame. The inner end of lever I16 has rotatably mounted thereon a roller I19 bearing against the edge of a cam I 82 secured to and rotatable with shaft I32. Roller I19 is maintained in engagement with the edge of cam I82 by a coil spring I83 connected at one end to lever I16 and at its opposite end to the machine frame.

As cam I82 is driven in rotation during the machine operation, lever I16 is rocked clockwise about stub shaft I 11 against the tension of spring I83. Such clockwise movement of lever I16, through link I13, rocks segmental gear I69 in a clockwise direction about stub shaft I12 and thereby drives pinion I66 in a counterclockwise direction to raise rack I63 and angle strip I59 2.

predetermined distance. Upon continued rotation of cam I82, roller I19 restores to its original position, as shown in Fig. 15 under the tension of spring I83. During this restoring movement, link I13 rocks segment gear I89 in a counter.- clockwise direction, and this lowers rack I63 and angle strip I 59 back into the position shown in Figs. 13 and 15.

Angle strips $59 are so arranged that their horizontal flanges lie directly beneath weights I84 (see also Fig. 14) associated with the pull-.

ing heads 2424a. Weights I84 are secured to the lower end of a vertically movable frame I85, comprised of spaced plates I86 between which are fixed vertically disposed racks I81, said racks having their teeth facing inwardly toward each other. Racks I81 mesh with pinions I88 rotatably mounted on studs I89 secured in a plate I92 fixed stationarily upon machine frame 21. Pinions I88 mesh with oppositely disposed teeth provided on a rack I93 which passes downwardly between the pinions. The upper end of rack I93 carries a rotatable cap bearing I 94 (Fig. 13) upon which rests a horizontally disposed plate 288 fixed on the lower end of a hollow tubular shaft I 95. Shaft I95 is mounted for vertical reciprocation and rotative movement within bearings I96 fixed to the machine frame.

The upper end of shaft I95 carries head 24 from which pulling tongs 22 depend. From the foregoing, it is seen that as angle strip I 59 is elevated, it moves weights I 84 and frame I upwardly and that this upward movement rotates pinions I88. Rotation of pinions I88, during the upward stroke of racks I81 pulls rack I93 downwardly into frame I85 as shown on the right hand side of Fig. 13. Incident to the lowering of rack I93, plate 288 and shaft I descend by gravity, and in this manner, head 24 and its associated tongs 22 are lowered into position to grip a scag end I5 of an ampoule. Upon angle strip I59 descending to its lowermost position shown in Fig. 13, weight I84 and frame I 85 would follow the strip downwardly and immediately raise shaft I95 and head 24, but for the fact that tongs 22 will have seized upon a scag end I5 of an ampoule, so that head 24 and shaft I95 are retained in their lowered positions against the tension exerted by frame I85 and its associated weights I84. In this manner weights I84, are, in effect, cocked to deliver a pulling force upon tongs 22 while neck I4 becomes, in effect, a trigger for releasing the weights, it being remembered that ampoule I8 is anchored by grippers 2I against upward movement.

The mechanism for opening and closing tongs 22 is best shown in Figs. 4 and 13. Tongs 22 are secured to bell cranks I91 pivoted at I98 within head 24. The bell cranks are pivoted together as at I99 for joint movement about their pivots I98. A link 282 pivotally connects one of the bell cranks I91 to a lever 283 pivoted at 284 within head 24. A spring-pulled arm 285 is pivoted within head 24 at 288 and is pivotally connected at its lower end as at 281 to lever 283. By this arrangement the spring-pulled arm 285 urges tongs 22 toward one another into gripping engagement with a scag end I5 of an ampoule. An adjusting screw 288 is provided to regulate the extent of gripping pressure which may be applied by the spring-pulled lever 285; The right hand end of lever 283 is pivotally connected as at 289 to a plunger 2I2 of a solenoid 2I3. As will be more fully explained in connection with the wiring diagram, when solenoid 2I3 is energized,

11 lever 203 is rocked clockwise against the tension of spring-pulled lever 205, about its pivot 204 a distance suflicient to open tongs 22.

Solenoid 2I3 is energized during the descent of head 24 and is de-energized when head 24 reaches its lowermost position. The solenoid remains de-energized until the head has raised to remove the scag end of the ampoule and swing such removed end over a waste receptacle, whereupon the solenoid is energized and remains so until head 24 is lowered into scag-end gripping position.

Sealing burners 23 (Figs. 4 and 13) are supported on the upper ends of vertically disposed tubes 2I4 guided for vertical movement in machine frame 21. Tubes 2I4 are connected adjacent their lower ends by a tie bar 2I5 to which is attached as at 2 I6 the upper end of a plunger 2 I1 of a burner control solenoid 2 I8 mounted in a depending bracket 2I9secured to the machine frame. The lower ends of tubes 2I4 are connected by flexible tubing 222 to a suitable source of fuel. Springs 223 connected between tie bar 2I5 and machine frame 21, urge bar 2I5, tubes 2I4, and burners 23 upwardly a slight extent, to the position indicated by dotted lines in Fig. 13. Solenoid 2I8, however, is normally energized as will hereinafter be described in connection with the wiring diagram and, when so energized, pulls burners 23 downwardly to the position shown in full lines in Fig. 13. In such position, the flames from burners 23 jet from opposite directions toward neck I4 of the ampoule. As the flames play upon the neck, the glass or other material from which the ampoule is made is rendered plastic. As soon as the neck becomes sufficiently plastic, tongs 22, head 24, and tubular shaft I95 rise under the force exerted by frame I85 and weights I84, and pull scag end I free of neck I4. The fusing of the glass or other material effects a sealing of neck I4 of the ampoule. At this stage, the sealed end of the ampoule would present a sharp point. Since this is undesirable, burners 23 are elevated shortly following the separation of the scag end I5 from neck I4, to their uppermost position shown in dotted lines in Fig. 13. Such raising of the burners causes the sharply pointed end to remain in molten condition and to flow so as to form a rounded end as shown in Fig. 5. The elevation of burners 23 is controlled by a switch 224 (Fig. 13) fixed to a lower portion of the machine frame in spaced relation from weights I84. An arm 225 of switch 224 is arranged to be engaged and moved to effect actuation of the switch by a slightly outwardly projecting control arm 226 aflixed to weights I84. When weights I84 descend a predetermined distance, i. e., a distance suificient to remove scag ,end I5 from neck I4, arm 226 engages arm 225 and actuates switch 224 to open the electrical circuit of solenoid 2I8, thus permitting burners 23 to rise as just described.

Following the upward movement of the burners and their being maintained in raised position for a relatively short but sufficient period of time to cause a rounded end to be formed on the neck of the ampoule, solenoid 2I8 is re-energized to lower burners 23 back into their normal or sealing position. The electrical circuits for solenoid 2I8 and switch 224 will hereinafter be more fully described in connection with the wiring diagram.

It is to be noted that by the construction and arrangement of parts just described, each am-,

poule per se controls its particular sealing operation. That is to say, an ampoule having a neck of relatively light wall thickness and/or of a material having relatively low heat resistance will yield and seal somewhat more rapidly than an ampoule having a relatively heavy wall thickness at its neck, and/or of material of relatively high heat resistance and all intermediate degrees of such heat and strength characteristics will lie between these two extremes. By so utilizing the ampoules as an element of the machine in controlling the separation of the scag end I5 from neck I4, a smooth, efficient sealing operation is insured irrespective of variations in the individual ampoules. Breakage of ampoules and other untoward results, caused by prematurely forcing a separation before the neck has reached that temperature necessary in accordance with wall thickness and strength characteristics peculiar to the particular ampoule, are completely eliminated. This resultsin a marked reduction in both waste operations and waste product.

The mechanism for rotating heads 24 and 24a while in their raised position from over the sealed ampoules through an arc of 180 into posi tion to discharge the removed scag ends I5 into waste receptacles 25 and then back into position over the ampoules will now be described.

Referring to Fig. '1, such mechanism includes a horizontally disposed rack 221 guided for reciprocable movement by rollers such as 228 (see also Figs. 12, 13, and 14) along ways 229 provided on the machine frame. The inner face of rack 221 (Fig. 14) has teeth 233 meshing with a pinion 234 journaled for free rotation about shaft I which slidably passes through the pinion. A plate 235 fixed to pinion 234 and also freely rotatable about shaft I95 carries a fixed, depending key 235 which passes with sliding clearance through an aperture 231 in plate 250 which, it will be remembered, is aflixed to the lower end of shaft I95. The upper face of rack 221 has teeth 238 meshing with a segmental gear 239 journaled for rotation on a stub shaft 242 fixed to the machine frame. A link 243 pivotally connects gear 239 to the outer end of a lever 244 pivoted on a stub shaft 245 journaled in a depending bearing 246 (Fig. 12) secured to the machine frame.

The opposite end of lever 244 carries a roller 241 bearing against the edge of a cam 248 fixed on shaft I32. A coil spring 249 connected at one end to lever 244 and at its opposite end to the machine frame, constantly urges roller 241 and lever 244 into a following relation with cam 248. As cam 24!! is driven in rotation by shaft I32, at the appropriate time in the machine cycle when head 24 has reached its fully elevated position and the scag end I5 has been removed from an ampoule, lever 244 is rocked by cam 248 in a clockwise direction as viewed in Fig. 12 to pull link 243 downwardly and rotate gear 239 to move rack 221 in a direction toward the reader as. viewed in this figure. Movement of rack 221 rotates pinion 234 and plate 235 which, through key 236, rotate plate 200 and shaft I95 through an arc of as indicated by the curved arrow at the top of Fig. 14 in connection with head Such movement positions the pulling tongs 22 or 22a, as the case may be, over their associated waste receptacles 25. At this time, solenoid 2I3 becomes energized to open the tongs whereupon the removed scag end I5 drops into the receptacle. Upon further rotation of cam 238, the parts restore to their positions shown in Fig. 12 and thus swing the head back into vertical alignses me 13 ment with the next filled ampoule to be sealed. It will be understood from the figures just referred to that each head 2424a has its own independent rotating mechanism, that each functions in an identical manner, and that the two heads are coordinated to operate so that when one head is swung out to drop a scag end I5 the other head will be swung in and lowered to engage a scag end I5 of a filled ampoule preparatory to removing said end in the manner hereinbefore described. The timing of the machine is such that a pair of oppositely disposed sealing heads such as 2424a are utilized for each filling head I9 that is employed and, referring to Figs. 6 and 7, it will be seen that a battery of filling heads I9 may be arranged side by side at the forward end of the machine and a corresponding number of pairs of sealing heads 24-24:; may likewise be arranged side by side, along the rear end of the machine.

When four filling heads are employed as suggested by the full and dotted line showings in Fig. 6, three additional ampoule receiving receptacles 54 as indicated by bracket 25! in Fig. 6 are mounted in equispaeed relation between the receptacles 54 to increase the capacity of conveyor I6 in correspondence with the increase in number of filling stations F. i The sealed ampoules are discharged from receptacles 54 as the latter turn around sprockets 33 (Fig. 7). The ampoules fall a short distance into an angularly disposed guide chute 259 fixed to the right hand end of machine frame 21 as clearly shown in Fig. 7. Chute 258 carries the finished ampoules into a suitable receptacle (not shown).

The various solenoids 68,. I54, I58, 2I3, ZIB and pump motor I43 are, in part at least, controlled by electrical cam controlled contacts to be hereinafter described in connection with the wiring diagram. The cams for controlling the opening and closing of the contacts are affixed to a horizontally disposed shaft 252 (Figs. 6, 8, and 11) suitably journaled at its opposite ends in bearings such as 253 (Fig. 6). Shaft 252 is continuously driven in rotation by a chain and sprocket drive 254, the chain passing around a sprocket 255 fixed to shaft I25. By this means, when the main drive motor 85 is operating, shaft 252 is continuously driven in rotation and thereby rotates the cams affixed thereon to perform functions described in the section which follows.

6. Electrical circuits The machine is started by closing a main line switch 256 (Fig. 18) which closesthe circuit to the main drive motor 85 wired in series between lines 251 and 258.

Aligning gripper solenoid 98 and anchoring gripper solenoid I58 are connected directly to side 251 of the line and are controlled by a pair of normally closed cam contacts 259 operated by a cam 266 on shaft 252. When ampoules I reach filling station F and sealing station 5, respectively, contacts 259 are opened by cam 269 so that solenoids 88 and I58 are de-energized and their respective grippers I1 and 2| are closed by their associated springs such as 93. Following a completion of a filling and sealing operation, contacts 259 are closed to energize solenoids 9B and I58 to open the aligning and anchoring grippers I1-2I.

When filling head I9 lowers needle I8 into an ampoule as shown, pump motor I43 is operated through the following circuit. One side of motor Such closing of contacts I43 is connected to line 251 and the opposite side of the motor is wired in series through a pair of cam contacts 262 and a pair of normally closed contacts 263 of the three contact switch I56 of the other side 258 of the line. controlled by a cam 254 on the shaft 262. When cam 264 closes contacts 262, motor I43, is started to operate pump I39. Upon the opening of contacts 262 the motor circuit is broken and the motor and pump are thereby stopped. This dispenses a predetermined quantity of liquid into ampoule I 0.

Lockout solenoid I54 is connected to side 251 of the line and to a normally opened contact 265 of three contact switch I56. When no ampoule is present beneath needle I6, aligning grippers I1 swing further inwardly than normal as heretofore described. Such further inward movement actuates switch I56 to move the center strap contact 263 out of engagement with its companion contact 263 into engagement with contact 265 thus energizing solenoid I54 to move lockout arm I44 into effective position as shown in dotted lines. Opening of contacts 263 prevents operation of motor I43 and pump I39 even though contacts 262 are closed during a portion of a machine cycle wherein no ampoule is present beneath filling needle I8.

Pulling-tong solenoid 2I3 is connected to side to thus energize solenoid 2I3 and open tongs 22. When tongs 22 have been lowered to embracing position with respect to an ampoule II] as shown in Fig. 18, cam 269 opens contacts 268. This deenergizes relay 261, thereby opens relay contacts 296, and thus de-energizes solenoid 213 to permit tongs 22 to close upon the ampoule neck under the tension of spring-pulled lever 265.

Burner solenoid H8 is connected directly to side 251 of the line and is connected through normally closed points 212 of a relay 21'.3,to the opposite side 258 of the line. Hence, solenoid 2I8 is normally energized to hold burners 23 in their lowermost position. Relay 213 is connected directly to side 251 of the line and, through nor- ,mally open contacts 214 of switch 224 and normally closed cam contacts 215 to the opposite side 258 of the line. Contacts 215 are controlled by a cam 219 on shaft 252. A pair of normally open holding points 216 of relay 213 are connected through the relay coil to side 251 of the line and through a pair of cam contacts 211 to the opposite side 258 of the line. Contacts 211 are controlled by a cam 218 on shaft 252. As control arm 226 actuates switch 224 as weights I84 descend, contacts 214 are momentarily closed. 214 energizes relay 213 and opens relay points 212 whereupon solenoid 2I8 is de-energized to permit burners 23 to raise to their upper position. Holding points 216 hold relay 219 energized until cam 218 opens contacts 211 thereby breaking the circuit of relay 213 and re-energizing solenoid 2I8 to lower burners 23 into their lowermost position. The burners 23 are maintained in their uppermost position only for a sufficient period of time to effect a rounding off of the sealed ampoule end as shown in Fig. 5.

Contacts 252 are- 

